| // Copyright 2020 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| package ir |
| |
| import ( |
| "cmd/compile/internal/base" |
| "cmd/compile/internal/types" |
| "cmd/internal/obj" |
| "cmd/internal/src" |
| "fmt" |
| ) |
| |
| // A Func corresponds to a single function in a Go program |
| // (and vice versa: each function is denoted by exactly one *Func). |
| // |
| // There are multiple nodes that represent a Func in the IR. |
| // |
| // The ONAME node (Func.Nname) is used for plain references to it. |
| // The ODCLFUNC node (the Func itself) is used for its declaration code. |
| // The OCLOSURE node (Func.OClosure) is used for a reference to a |
| // function literal. |
| // |
| // An imported function will have an ONAME node which points to a Func |
| // with an empty body. |
| // A declared function or method has an ODCLFUNC (the Func itself) and an ONAME. |
| // A function literal is represented directly by an OCLOSURE, but it also |
| // has an ODCLFUNC (and a matching ONAME) representing the compiled |
| // underlying form of the closure, which accesses the captured variables |
| // using a special data structure passed in a register. |
| // |
| // A method declaration is represented like functions, except f.Sym |
| // will be the qualified method name (e.g., "T.m"). |
| // |
| // A method expression (T.M) is represented as an OMETHEXPR node, |
| // in which n.Left and n.Right point to the type and method, respectively. |
| // Each distinct mention of a method expression in the source code |
| // constructs a fresh node. |
| // |
| // A method value (t.M) is represented by ODOTMETH/ODOTINTER |
| // when it is called directly and by OMETHVALUE otherwise. |
| // These are like method expressions, except that for ODOTMETH/ODOTINTER, |
| // the method name is stored in Sym instead of Right. |
| // Each OMETHVALUE ends up being implemented as a new |
| // function, a bit like a closure, with its own ODCLFUNC. |
| // The OMETHVALUE uses n.Func to record the linkage to |
| // the generated ODCLFUNC, but there is no |
| // pointer from the Func back to the OMETHVALUE. |
| type Func struct { |
| miniNode |
| Body Nodes |
| |
| Nname *Name // ONAME node |
| OClosure *ClosureExpr // OCLOSURE node |
| |
| // Extra entry code for the function. For example, allocate and initialize |
| // memory for escaping parameters. |
| Enter Nodes |
| Exit Nodes |
| |
| // ONAME nodes for all params/locals for this func/closure, does NOT |
| // include closurevars until transforming closures during walk. |
| // Names must be listed PPARAMs, PPARAMOUTs, then PAUTOs, |
| // with PPARAMs and PPARAMOUTs in order corresponding to the function signature. |
| // However, as anonymous or blank PPARAMs are not actually declared, |
| // they are omitted from Dcl. |
| // Anonymous and blank PPARAMOUTs are declared as ~rNN and ~bNN Names, respectively. |
| Dcl []*Name |
| |
| // ClosureVars lists the free variables that are used within a |
| // function literal, but formally declared in an enclosing |
| // function. The variables in this slice are the closure function's |
| // own copy of the variables, which are used within its function |
| // body. They will also each have IsClosureVar set, and will have |
| // Byval set if they're captured by value. |
| ClosureVars []*Name |
| |
| // Enclosed functions that need to be compiled. |
| // Populated during walk. |
| Closures []*Func |
| |
| // Parents records the parent scope of each scope within a |
| // function. The root scope (0) has no parent, so the i'th |
| // scope's parent is stored at Parents[i-1]. |
| Parents []ScopeID |
| |
| // Marks records scope boundary changes. |
| Marks []Mark |
| |
| FieldTrack map[*obj.LSym]struct{} |
| DebugInfo interface{} |
| LSym *obj.LSym // Linker object in this function's native ABI (Func.ABI) |
| |
| Inl *Inline |
| |
| // Closgen tracks how many closures have been generated within |
| // this function. Used by closurename for creating unique |
| // function names. |
| Closgen int32 |
| |
| Label int32 // largest auto-generated label in this function |
| |
| Endlineno src.XPos |
| WBPos src.XPos // position of first write barrier; see SetWBPos |
| |
| Pragma PragmaFlag // go:xxx function annotations |
| |
| flags bitset16 |
| |
| // ABI is a function's "definition" ABI. This is the ABI that |
| // this function's generated code is expecting to be called by. |
| // |
| // For most functions, this will be obj.ABIInternal. It may be |
| // a different ABI for functions defined in assembly or ABI wrappers. |
| // |
| // This is included in the export data and tracked across packages. |
| ABI obj.ABI |
| // ABIRefs is the set of ABIs by which this function is referenced. |
| // For ABIs other than this function's definition ABI, the |
| // compiler generates ABI wrapper functions. This is only tracked |
| // within a package. |
| ABIRefs obj.ABISet |
| |
| NumDefers int32 // number of defer calls in the function |
| NumReturns int32 // number of explicit returns in the function |
| |
| // nwbrCalls records the LSyms of functions called by this |
| // function for go:nowritebarrierrec analysis. Only filled in |
| // if nowritebarrierrecCheck != nil. |
| NWBRCalls *[]SymAndPos |
| |
| // For wrapper functions, WrappedFunc point to the original Func. |
| // Currently only used for go/defer wrappers. |
| WrappedFunc *Func |
| } |
| |
| func NewFunc(pos src.XPos) *Func { |
| f := new(Func) |
| f.pos = pos |
| f.op = ODCLFUNC |
| // Most functions are ABIInternal. The importer or symabis |
| // pass may override this. |
| f.ABI = obj.ABIInternal |
| return f |
| } |
| |
| func (f *Func) isStmt() {} |
| |
| func (n *Func) copy() Node { panic(n.no("copy")) } |
| func (n *Func) doChildren(do func(Node) bool) bool { return doNodes(n.Body, do) } |
| func (n *Func) editChildren(edit func(Node) Node) { editNodes(n.Body, edit) } |
| func (n *Func) editChildrenWithHidden(edit func(Node) Node) { editNodes(n.Body, edit) } |
| |
| func (f *Func) Type() *types.Type { return f.Nname.Type() } |
| func (f *Func) Sym() *types.Sym { return f.Nname.Sym() } |
| func (f *Func) Linksym() *obj.LSym { return f.Nname.Linksym() } |
| func (f *Func) LinksymABI(abi obj.ABI) *obj.LSym { return f.Nname.LinksymABI(abi) } |
| |
| // An Inline holds fields used for function bodies that can be inlined. |
| type Inline struct { |
| Cost int32 // heuristic cost of inlining this function |
| |
| // Copies of Func.Dcl and Func.Body for use during inlining. Copies are |
| // needed because the function's dcl/body may be changed by later compiler |
| // transformations. These fields are also populated when a function from |
| // another package is imported. |
| Dcl []*Name |
| Body []Node |
| |
| // CanDelayResults reports whether it's safe for the inliner to delay |
| // initializing the result parameters until immediately before the |
| // "return" statement. |
| CanDelayResults bool |
| } |
| |
| // A Mark represents a scope boundary. |
| type Mark struct { |
| // Pos is the position of the token that marks the scope |
| // change. |
| Pos src.XPos |
| |
| // Scope identifies the innermost scope to the right of Pos. |
| Scope ScopeID |
| } |
| |
| // A ScopeID represents a lexical scope within a function. |
| type ScopeID int32 |
| |
| const ( |
| funcDupok = 1 << iota // duplicate definitions ok |
| funcWrapper // hide frame from users (elide in tracebacks, don't count as a frame for recover()) |
| funcABIWrapper // is an ABI wrapper (also set flagWrapper) |
| funcNeedctxt // function uses context register (has closure variables) |
| funcReflectMethod // function calls reflect.Type.Method or MethodByName |
| // true if closure inside a function; false if a simple function or a |
| // closure in a global variable initialization |
| funcIsHiddenClosure |
| funcIsDeadcodeClosure // true if closure is deadcode |
| funcHasDefer // contains a defer statement |
| funcNilCheckDisabled // disable nil checks when compiling this function |
| funcInlinabilityChecked // inliner has already determined whether the function is inlinable |
| funcExportInline // include inline body in export data |
| funcInstrumentBody // add race/msan/asan instrumentation during SSA construction |
| funcOpenCodedDeferDisallowed // can't do open-coded defers |
| funcClosureCalled // closure is only immediately called; used by escape analysis |
| ) |
| |
| type SymAndPos struct { |
| Sym *obj.LSym // LSym of callee |
| Pos src.XPos // line of call |
| } |
| |
| func (f *Func) Dupok() bool { return f.flags&funcDupok != 0 } |
| func (f *Func) Wrapper() bool { return f.flags&funcWrapper != 0 } |
| func (f *Func) ABIWrapper() bool { return f.flags&funcABIWrapper != 0 } |
| func (f *Func) Needctxt() bool { return f.flags&funcNeedctxt != 0 } |
| func (f *Func) ReflectMethod() bool { return f.flags&funcReflectMethod != 0 } |
| func (f *Func) IsHiddenClosure() bool { return f.flags&funcIsHiddenClosure != 0 } |
| func (f *Func) IsDeadcodeClosure() bool { return f.flags&funcIsDeadcodeClosure != 0 } |
| func (f *Func) HasDefer() bool { return f.flags&funcHasDefer != 0 } |
| func (f *Func) NilCheckDisabled() bool { return f.flags&funcNilCheckDisabled != 0 } |
| func (f *Func) InlinabilityChecked() bool { return f.flags&funcInlinabilityChecked != 0 } |
| func (f *Func) ExportInline() bool { return f.flags&funcExportInline != 0 } |
| func (f *Func) InstrumentBody() bool { return f.flags&funcInstrumentBody != 0 } |
| func (f *Func) OpenCodedDeferDisallowed() bool { return f.flags&funcOpenCodedDeferDisallowed != 0 } |
| func (f *Func) ClosureCalled() bool { return f.flags&funcClosureCalled != 0 } |
| |
| func (f *Func) SetDupok(b bool) { f.flags.set(funcDupok, b) } |
| func (f *Func) SetWrapper(b bool) { f.flags.set(funcWrapper, b) } |
| func (f *Func) SetABIWrapper(b bool) { f.flags.set(funcABIWrapper, b) } |
| func (f *Func) SetNeedctxt(b bool) { f.flags.set(funcNeedctxt, b) } |
| func (f *Func) SetReflectMethod(b bool) { f.flags.set(funcReflectMethod, b) } |
| func (f *Func) SetIsHiddenClosure(b bool) { f.flags.set(funcIsHiddenClosure, b) } |
| func (f *Func) SetIsDeadcodeClosure(b bool) { f.flags.set(funcIsDeadcodeClosure, b) } |
| func (f *Func) SetHasDefer(b bool) { f.flags.set(funcHasDefer, b) } |
| func (f *Func) SetNilCheckDisabled(b bool) { f.flags.set(funcNilCheckDisabled, b) } |
| func (f *Func) SetInlinabilityChecked(b bool) { f.flags.set(funcInlinabilityChecked, b) } |
| func (f *Func) SetExportInline(b bool) { f.flags.set(funcExportInline, b) } |
| func (f *Func) SetInstrumentBody(b bool) { f.flags.set(funcInstrumentBody, b) } |
| func (f *Func) SetOpenCodedDeferDisallowed(b bool) { f.flags.set(funcOpenCodedDeferDisallowed, b) } |
| func (f *Func) SetClosureCalled(b bool) { f.flags.set(funcClosureCalled, b) } |
| |
| func (f *Func) SetWBPos(pos src.XPos) { |
| if base.Debug.WB != 0 { |
| base.WarnfAt(pos, "write barrier") |
| } |
| if !f.WBPos.IsKnown() { |
| f.WBPos = pos |
| } |
| } |
| |
| // FuncName returns the name (without the package) of the function n. |
| func FuncName(f *Func) string { |
| if f == nil || f.Nname == nil { |
| return "<nil>" |
| } |
| return f.Sym().Name |
| } |
| |
| // PkgFuncName returns the name of the function referenced by n, with package prepended. |
| // This differs from the compiler's internal convention where local functions lack a package |
| // because the ultimate consumer of this is a human looking at an IDE; package is only empty |
| // if the compilation package is actually the empty string. |
| func PkgFuncName(f *Func) string { |
| if f == nil || f.Nname == nil { |
| return "<nil>" |
| } |
| s := f.Sym() |
| pkg := s.Pkg |
| |
| return pkg.Path + "." + s.Name |
| } |
| |
| var CurFunc *Func |
| |
| // WithFunc invokes do with CurFunc and base.Pos set to curfn and |
| // curfn.Pos(), respectively, and then restores their previous values |
| // before returning. |
| func WithFunc(curfn *Func, do func()) { |
| oldfn, oldpos := CurFunc, base.Pos |
| defer func() { CurFunc, base.Pos = oldfn, oldpos }() |
| |
| CurFunc, base.Pos = curfn, curfn.Pos() |
| do() |
| } |
| |
| func FuncSymName(s *types.Sym) string { |
| return s.Name + "·f" |
| } |
| |
| // MarkFunc marks a node as a function. |
| func MarkFunc(n *Name) { |
| if n.Op() != ONAME || n.Class != Pxxx { |
| base.FatalfAt(n.Pos(), "expected ONAME/Pxxx node, got %v (%v/%v)", n, n.Op(), n.Class) |
| } |
| |
| n.Class = PFUNC |
| n.Sym().SetFunc(true) |
| } |
| |
| // ClosureDebugRuntimeCheck applies boilerplate checks for debug flags |
| // and compiling runtime. |
| func ClosureDebugRuntimeCheck(clo *ClosureExpr) { |
| if base.Debug.Closure > 0 { |
| if clo.Esc() == EscHeap { |
| base.WarnfAt(clo.Pos(), "heap closure, captured vars = %v", clo.Func.ClosureVars) |
| } else { |
| base.WarnfAt(clo.Pos(), "stack closure, captured vars = %v", clo.Func.ClosureVars) |
| } |
| } |
| if base.Flag.CompilingRuntime && clo.Esc() == EscHeap && !clo.IsGoWrap { |
| base.ErrorfAt(clo.Pos(), "heap-allocated closure %s, not allowed in runtime", FuncName(clo.Func)) |
| } |
| } |
| |
| // IsTrivialClosure reports whether closure clo has an |
| // empty list of captured vars. |
| func IsTrivialClosure(clo *ClosureExpr) bool { |
| return len(clo.Func.ClosureVars) == 0 |
| } |
| |
| // globClosgen is like Func.Closgen, but for the global scope. |
| var globClosgen int32 |
| |
| // closureName generates a new unique name for a closure within outerfn. |
| func closureName(outerfn *Func) *types.Sym { |
| pkg := types.LocalPkg |
| outer := "glob." |
| prefix := "func" |
| gen := &globClosgen |
| |
| if outerfn != nil { |
| if outerfn.OClosure != nil { |
| prefix = "" |
| } |
| |
| pkg = outerfn.Sym().Pkg |
| outer = FuncName(outerfn) |
| |
| // There may be multiple functions named "_". In those |
| // cases, we can't use their individual Closgens as it |
| // would lead to name clashes. |
| if !IsBlank(outerfn.Nname) { |
| gen = &outerfn.Closgen |
| } |
| } |
| |
| *gen++ |
| return pkg.Lookup(fmt.Sprintf("%s.%s%d", outer, prefix, *gen)) |
| } |
| |
| // NewClosureFunc creates a new Func to represent a function literal. |
| // If hidden is true, then the closure is marked hidden (i.e., as a |
| // function literal contained within another function, rather than a |
| // package-scope variable initialization expression). |
| func NewClosureFunc(pos src.XPos, hidden bool) *Func { |
| fn := NewFunc(pos) |
| fn.SetIsHiddenClosure(hidden) |
| |
| fn.Nname = NewNameAt(pos, BlankNode.Sym()) |
| fn.Nname.Func = fn |
| fn.Nname.Defn = fn |
| |
| fn.OClosure = &ClosureExpr{Func: fn} |
| fn.OClosure.op = OCLOSURE |
| fn.OClosure.pos = pos |
| |
| return fn |
| } |
| |
| // NameClosure generates a unique for the given function literal, |
| // which must have appeared within outerfn. |
| func NameClosure(clo *ClosureExpr, outerfn *Func) { |
| fn := clo.Func |
| if fn.IsHiddenClosure() != (outerfn != nil) { |
| base.FatalfAt(clo.Pos(), "closure naming inconsistency: hidden %v, but outer %v", fn.IsHiddenClosure(), outerfn) |
| } |
| |
| name := fn.Nname |
| if !IsBlank(name) { |
| base.FatalfAt(clo.Pos(), "closure already named: %v", name) |
| } |
| |
| name.SetSym(closureName(outerfn)) |
| MarkFunc(name) |
| } |
| |
| // UseClosure checks that the given function literal has been setup |
| // correctly, and then returns it as an expression. |
| // It must be called after clo.Func.ClosureVars has been set. |
| func UseClosure(clo *ClosureExpr, pkg *Package) Node { |
| fn := clo.Func |
| name := fn.Nname |
| |
| if IsBlank(name) { |
| base.FatalfAt(fn.Pos(), "unnamed closure func: %v", fn) |
| } |
| // Caution: clo.Typecheck() is still 0 when UseClosure is called by |
| // tcClosure. |
| if fn.Typecheck() != 1 || name.Typecheck() != 1 { |
| base.FatalfAt(fn.Pos(), "missed typecheck: %v", fn) |
| } |
| if clo.Type() == nil || name.Type() == nil { |
| base.FatalfAt(fn.Pos(), "missing types: %v", fn) |
| } |
| if !types.Identical(clo.Type(), name.Type()) { |
| base.FatalfAt(fn.Pos(), "mismatched types: %v", fn) |
| } |
| |
| if base.Flag.W > 1 { |
| s := fmt.Sprintf("new closure func: %v", fn) |
| Dump(s, fn) |
| } |
| |
| if pkg != nil { |
| pkg.Decls = append(pkg.Decls, fn) |
| } |
| |
| if false && IsTrivialClosure(clo) { |
| // TODO(mdempsky): Investigate if we can/should optimize this |
| // case. walkClosure already handles it later, but it could be |
| // useful to recognize earlier (e.g., it might allow multiple |
| // inlined calls to a function to share a common trivial closure |
| // func, rather than cloning it for each inlined call). |
| } |
| |
| return clo |
| } |